Bacteriophages are viruses that specifically infect bacteriums and were foremost discovered early in the twentieth century. Initial involvement was focused on the potency for utilizing phages as curative tools in the battle against bacterial infective diseases ( Bordet, 1925 ) . Because of the specificity of host-virus interactions, they were an of import constituent to the development of modern molecular biological science ( Safferman et al. , 1965 ; Mann, 2005 ) . In recent old ages, attending has been diverted to surveies in aquatic environments, with phages being recognized as major participants in the pelagic biogeochemical rhythms ( Wilhem and Suttle, 2002 ) , stand foring the greatest possible familial resource in the biosphere.Microcystis spp. ( K & A ; uuml ; tzing ex Lemmermann 1907 ) has been one of the most well-studied members of the Cyanobacteria group.

The fact that they are omnipresent in most aquatic environments where bloom episodes with possible toxin ( microcystin ) production occur ( frequently in freshwater lakes and reservoirs, Carmichael, 1992 ; Chorus and Bartram 1999 ) , clearly justifies the high sum of research on the ecology of this Genus ( Long et al, . 2001 ; Maria et al. , 2003 ; Stone and Bress, 2007 ; Liu et al. , 2008 ) .

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Surface H2O beginnings are major subscribers for imbibing H2O production worldwide, and Microcystis spp. bloom episodes have been reported as beginning of inauspicious effects in H2O quality, impacting both ecological quality and diverse human activities ( Chorus and Bartram 1999 ; Burns, 2008 ) . Consumption of H2O contaminated with microcystin ( i.e. hepatoxin ) release/produced by Microcystis spp. has been proven to do human decease and liver chronic disease ( Falconer and Baresford 1983 ; Teixeira and Costa, 1993 ; Azevedo and Carmichael, 2002 ) , and other harmful effects have been reported such as farm animal, wildlife and fish putting to deaths ( Olson, 1960 ; McBarron and May, 1966 ; Pearl 1988 ) .

Whereas most surveies have been focused on environmental factors lending to Microcystis spp. ecology and bloom kineticss, some attending has been given to analyzing biological parametric quantities ( ( Paerl, 1988 ; Orr and Jones, 1998 ; Bertasi et al. , 2003 ) . Depredation and competition have been studied ( Yang et al.

, 2004 ) , and there are recent plants describing lytic cyanophage activity commanding Microcystis spp. populations ( Pathmalal et al. , 2001 ; Tucker and Pollard, 2005 ; Yoshida et al. , 2006 ) .Aquatic research has shown that viruses represent a important and dynamic constituent of microbic communities: their figure by and large transcending the figure of bacteriums by 10 to 100 times or more ( Proctor and Furhman, 1990 ; Furhman and Noble, 1995 ; Cochran and Paul, 1998 ) .

Around 1989, transmittal negatron microscopy ( TEM ) was used to demo that viruses were more abundant than antecedently expected in oceanic aquatic systems ( Proctor and Furhman, 1990 ) . Fuhrman et Al. ( 1999 ) provides an first-class reappraisal of the decennary of aquatic viral find, go toing to concentrations of viruses found in the 1990 ‘s and the functions of viruses assessed through experimental use ( e.g. Fuhrman and Noble, 1995 ) .

Since so, other reappraisal articles have emerged, some discoursing the functions of aquatic viruses in clime alteration and pelagic commixture and conveyance.Viruss are omnipresent, abundant and temporally dynamic members of aquatic communities. Since they depend upon their hosts for reproduction, the comparative copiousness of specific virus types approximately analogues that of the beings they infect ( Hambly and Suttle, 2005 ) .There is more biological diverseness within viruses than in all the remainder of the bacterial, works, and animate being lands put together ( rules of virology chapter 1, 4th edition ) . This is the consequence of the success of viruses in parasitizing all known groups of life beings, and understanding this diverseness is the key to groking the interactions of viruses with their hosts.







567433The host DNA is digested4New phage Deoxyribonucleic acid signifiers utilizing nucleotide from former host Deoxyribonucleic acid5The host cell transcribes the phage DNA and translates viral RNA produging proteins6Assembly of new phage is complete. A phage-encoded enzyme causes the host to lyse7New phages are released to get down a new infection rhythm


The chromossome and the incorporate prophage replicates.

This can travel on through many cell divisions


Gun triggers induce prophage deletion: the host enters the lytic phase


The phage Deoxyribonucleic acid integrates into host ‘ chromossome going a nonreactive prophage




The bacteriophage binds to the bacteriums ( host )


The phage Deoxyribonucleic acid enters the host cell


Figure 1.1 – Bacteriophage life rhythm schemes ( modified from Sadava et al. , 2009 ) .It is a well-known fact that viruses have complex life rhythms ( Figure 1 ) and that the relation between host and the phage is diverse, holding different grades of complexness.Bacteriophages are diverse and distinguishable types of phage virions may transport single- or double-stranded dsDNA ( dual stranded Deoxyribonucleic acid ) or RNA, and the inside informations of their reproduction rhythms reflects this diverseness ( Casjens, 2003 ) .

The dsDNA phages can be divided into lytic and temperate virus groups, each of which is highly diverse by itself.Lytic dsDNA phages infect bacterial cells and at different grades of complexness. Bacteriophages are widely diverse and distinguishable types of phage virions may transport single- or double-stranded dsDNA ( dual stranded Deoxyribonucleic acid ) or RNA, and the inside informations of their reproduction rhythms reflect this diverseness ( Casjens, 2003 ) . The dsDNA phages can be divided into lytic and temperate virus groups, each of which is highly diverse by itself. Lytic dsDNA phages infect bacterial cells and ever plan the synthesis of offspring virions, which are so released from the septic ( dead ) host cell. In contrast, temperate dsDNA phages are able to set up a stable relationship with their host bacteriums in which the phage Deoxyribonucleic acid is replicated. This procedure is done in concert with the host ‘s chromosome, and virus cistrons that are disadvantageous to the host are non expressed.

Such long-run association of bacteriophages with bacterial cells was first described in the 1920s ( Bordet, 1925 ) , but its credence and the apprehension of the existent nature of this association was merely achieved latter on ( Lwoff, 1953 ; 1966 ) . Succeeding work has shown that, during this procedure phage DNA is integrated into one of the native replicons of the host ( Campbell, 1962 ; Freifelder and Meselson, 1970 ) . Lysogeny is defined as the procedure whereby many phages develop a symbiotic relationship with their hosts ( Ackerman and Dubow, 1987 ) and phages capable of such procedure are named temperate phages reflecting their capableness of set uping such soundless infections by integrating of their genomes ( as prophages ) into one of the host ‘s replicons ( Paul, 2008 ) . It should be noted nevertheless that most research within the aquatic viral ecology field has been devoted to the function and diverseness of lytic viruses in aquatic environments.Cyanophages are viruses that infect blue-green algae, which are procaryotic micro-algae that can organize noxious blooms in lakes and reservoirs.

Cyanobacteria are potentially toxigenic, bring forthing potent hepatotoxins, called microcystins ( MCs ) ( Carmichael, 1996 ) , that have caused many instances of animate being and human toxic condition ( Pouria et al. , 1998 ) . Previously, most surveies have focused on relationships among the blue-green algae bloom kineticss and the alterations in physicochemical factors advancing blue-green algae growing in the aquatic environment ( Reis, 2005 ; Galv & A ; atilde ; o et al. , 2008 ) .The major bloom-forming cyanophyte species Microcystis aeruginosa signifiers noxious blooms in many eutrophic fresh water lakes, pools, and reservoirs.

Microcystis aeruginosa strains have the potency for the production of potent hepatotoxins called MCs within the environment ( Carmichael, 1996 ) . These powerful toxins have caused many instances of animate being and human toxic condition ( Pouria et al. , 1998 ) .

Previously, most surveies have focused on relationships among the cyanophyte bloom kineticss and the alterations in physicochemical factors ( foods, visible radiation, and temperature ) that influence cyanophyte growing in the aquatic environment ( Whitton and Pots, 2000 ; Reis, 2005 ; Galv & A ; atilde ; o et al. , 2008 ) .Since the find that viruses are widespread in marine ecosystems ( Bergh et al.

, 1989 ) , cyanophages that can infect blue-green algaes have been thought to be an alternate factor that may command the sequence of cyanophyte blooms ( Suttle, 2000 ; Mann, 2003 ; Okunishi et al. , 2003 ) . In add-on, cyanophages can besides act upon the clonal composing of the host Synechococcus communities ( Waterbury and Valois, 1993 ) and could account for some of the cyanophyte diverseness observed in natural communities ( Wommack and Colwell, 2000 ) . Nevertheless, small is known about how freshwater cyanophages can impact the copiousness and clonal composing of cyanophyte blooms in lakes over clip ( Yoshida et al. , 2008 ) . The mechanisms of virus-host interactions are losing from our present apprehension of lakes ecosystems procedures ( Yoshida et al. , 2007, 2008c ) .Prior to 2005, merely a really few phage strains, including SM-1 and SM-2, were reported to be lytic for M.

aeruginosa ( Safferman et al. , 1969 ; Fox et al. , 1976 ) .

In malice of such promising studies, the M. aeruginosa NRC-1 strain reported to be sensitive to SM-1 and SM-2 was subsequently found to be a Synechococcus strain, so SM-1 and SM-2 are phages that infect Synechococcus sp.Phillips et al. , ( 1990 ) described the isolation of a lytic agent that formed plaques on lawns of an M. aeruginosa strain but this agent was ne’er identified.Therefore, the cyanophages that infect M.

aeruginosa have non been characterized or cultured antecedently to the work of Tucker and Pollard ( 2005 ) . These writers identified two types of Podovirus-like atoms that inhibited growing of M. aeruginosa in natural lake samples collected during a M. aeruginosa bloom. Subsequently on, Yoshida et al. , ( 2006 ) reported the first isolation and word picture of a cyanophage Ma-LMM01 ( M.

aeruginosa Lake Mikata Myoviridae 01, harmonizing to the terminology for cyanophages proposed by Suttle, 2000 ) . The Ma-LMM01 phage atoms contain a additive dsDNA of about 165 kilobits and four major polypeptides of 84, 47, 38, and 26 kDa by utilizing SDS-PAGE ( Yoshida et al. , 2006 ) . Consequences from whole genome sequencing farther revealed the presence of a homologue of a site specific recombinase used by temperate phages to incorporate the phage genome into the bacterial chromosome ( Groth and Calos, 2004 ) and besides prophage antirepressor cistrons.

Yoshida et al. , 2008a argue that this cyanophage could expose a prophage province in some hosts, but besides that transportation of those cistrons by permutable elements could be possible. The same writers have been developing research on this individual cyanophage-M. aeruginosa brace ( Yoshida et al. , 2008b ) , but the fact that the stray phage merely infects a individual host strain, somehow choruss extrapolations of this remarkable relationship to unknown ecological relationship ‘s amongst cyanophages and several Microcystis spp. hosts. Ma-LMM01 is a dsDNA virus with a contractile tail therefore placed onto the Myoviridae household ( Yoshida et al.

, 2008a ) . This viral household processes at least six subgroups ( T4- , P1- , P2- , Mu- , SPO1- , and H-like phages ) ( Fauquet et al. , 2005 ) that exhibit high genomic diverseness.

Given that merely one lytic cyanophage has been sequenced, even less is known about triggers potentially bring oning temperate phages in Microcystis spp. Extensive research has been done refering initiation of temperate phages in Synechococcus spp. from Marine and estuarial systems. However no mentions were found refering proving normally used triggers for temperate phage initiation in Microcystis spp.. There have been a few reportson triggers of temperate phage in filiform blue-green algaes ( e.g. Rimon and Oppenheim, 1975 ) , and more late work done in Marine unicellular blue-green algae ( Synechococcus spp.

) ( Ortmann et al. , 2002 ) . Given the fact that initiation of temperate phages by physical and/or chemical triggers could potentially stand for an of import subscriber for the ordinance of Microcystis spp. in natural environments, it is singular the deficiency of surveies devoted to these issues.Overall, the ecological impact of cyanophages on Microcystis spp. is non clear however, studies have suggested that phage may play an of import function in modulating bloom kineticss.

For case, Manage et al. , ( 1999 ) observed that an addition in cyanophage titres was accompanied by a big lessening in the copiousness of M. aeruginosa in a natural fresh water environment.Unraveling the biological science of phages and their relationship with their hosts is compulsory to understanding microbic systems and their development ( Clokie et al. , 2011 ) .

Analysis of host-phage systems and response of Microcystis strains to temperate phage initiation triggers is expected to increase our apprehension of the ecology and physiology of toxic cyanophyte blooms.

1.1 – Aims

The chief end of this thesis was to develop an apprehension of the function of viruses in Microcystis bloom ordinance, specifically the antecedently ill investigated temperate phages.

A major aim was to insulate and qualify the relationship between cyanophages and host: Microcystis spp. This chief end consequences from old work ( Reis, 2005 ; Galv & A ; atilde ; o, et al. , 2008 ) showing that Microcystis blooms in Algarve, Portugal fresh water reservoirs are non bottom-up regulated.To carry through this aim, in a globally meaningful manner, the following specific ends were achieved:Isolate and qualify a little uni-algal Microcystis aggregation ;Compare three methodological attacks for the concentration and successful isolation of cyanophages from existent universe H2O samples from around the universeTo develop a standardised attack and utile protocol for the sensing and isolation of Microcystis ‘s cyanophages4 ) To analyze the cyanophage: host relationship.